Research of influence ballistic characteristics of weapons on the shooting efficiency taking into account the safety of the small arm use

Authors

DOI:

https://doi.org/10.15587/2706-5448.2020.205125

Keywords:

firing efficiency, ballistic characteristics, small arms, fire tasks, security forces.

Abstract

The object of research is the process of performing a fire mission by employees of the security forces in the presence of unauthorized persons in the direction of fire. The paper investigates the influence of the ballistic characteristics of weapons on the effectiveness of performing fire missions by security forces, taking into account the security of the use of weapons. The purpose of the use of weapons by security forces is usually the cessation of the offender or its detention. In this case, the deaths or injuries of a hostage or an unauthorized person as a result of the use of weapons should qualify as failure to fulfill the assigned fire mission. An analysis of the tactics of actions and features of the use of weapons by security forces indicates that the main reason for the danger of the use of small arms for unauthorized persons is the excessive distance of the bullet’s flight, at which it maintains lethal action. At the same time, with this the distance of the lethal action of a bullet is one of the factors that can be corrected. It depends on a combination of the ballistic characteristics of the weapon, namely the muzzle speed and the ballistic coefficient of the bullet. The analysis of known studies shows that the existing scientific and methodological apparatus for determining the effectiveness of firing does not allow to determine the effectiveness of the execution of the fire mission, taking into account the safety of the use of small arms due to the imperfection of the corresponding models. The model of the process of performing the fire mission has been improved by taking into account the influence of the ballistic characteristics of the weapon on the probability of hitting unauthorized persons, which makes it possible to assess the safety of the use of weapons. As a result of the study of the influence of ballistic characteristics of weapons on firing efficiency, taking into account the safety of the use of weapons, it was found that there is a need to minimize the difference between the aiming range of the weapon and the range at which the bullet maintains lethal action. Excessive energy of a bullet increases the likelihood of hitting an outsider due to an increase in the area of the danger zone of its destruction as a result of through penetration of the target. The probability of performing a fire mission with a limitation on the safety of using weapons is positively affected by increasing the stability of the muzzle speed of a bullet.

Author Biographies

Alexander Bilenko, National academy of National Guard of Ukraine Zakhysnykiv Ukrainy ave., 3, Kharkiv, Ukraine, 61001

Doctor of Technical Sciences, Associate Professor

Doctoral and adjuncture

Alexander Kyrychenko, National Academy of the National Guard of Ukraine, 3, Zakhysnykiv Ukrainy ave., Kharkiv, Ukraine, 61001

Faculty of Operations

Ruslan Kaidalov, National Academy of the National Guard of Ukraine, 3, Zakhysnykiv Ukrainy sq., Kharkіv, Ukraine, 61001

Doctor of Technical Sciences, Associate Professor

Department of Combat and Logistic Support

References

  1. Ventcel, E. S., Ovcharov, L. A. (2000). Teoriia veroiatnostei i ee inzhenernye prilozheniia. Moscow: Vysshaia shkola, 480.
  2. Chernyshev, V. L. (2006). Pokazateli effektivnosti ispolzovaniia vooruzheniia. Moscow: MAI, 87.
  3. Shereshevskii, M. S., Gontarev, A. N., Minaev, Iu. V. (1979). Effektivnost strelby iz avtomaticheskogo oruzhiia. Moscow: CNII informacii, 328.
  4. Kyrychenko, I. O., Raskin, L. H. (2005). Matematychni osnovy teorii vohnevykh duelei. Kharkiv: Viisk. in-t VV MVS Ukrainy, 300.
  5. Chervonii, A. A., Shvarc, V. A., Kozlovcev, A. P., Chobanian, V. A.; Chervonii, A. A. (Ed.) (1979). Veroiatnostnye metody ocenki effektivnosti vooruzheniia. Moscow: Voenizdat, 95.
  6. Shipunov, A. G., Griazev, V. P., Berezin, S. M., Emec, A. I., Ignatov, A. V., Matasov, V. F. (2002). Effektivnost i nadezhnost strelkovo-pushechnogo vooruzheniia. Tula, 124.
  7. Hu, C., Zhang, X. (2019). Influence of multiple structural parameters on interior ballistics based on orthogonal test methods. Defence Technology, 15 (5), 690–697. doi: http://doi.org/10.1016/j.dt.2019.06.014
  8. Forrestal, M. J., Altman, B. S., Cargile, J. D., Hanchak, S. J. (1994). An empirical equation for penetration depth of ogive-nose projectiles into concrete targets. International Journal of Impact Engineering, 15 (4), 395–405. doi: http://doi.org/10.1016/0734-743x(94)80024-4
  9. Li Piani, T., Weerheijm, J., Sluys, L. J. (2018). Ballistic model for the prediction of penetration depth and residual velocity in adobe: A new interpretation of the ballistic resistance of earthen masonry. Defence Technology, 14 (5), 607–611. doi: http://doi.org/10.1016/j.dt.2018.07.017
  10. Bilenko, O. I. (2015). Osoblyvosti otsiniuvannia efektyvnosti strilby pry vykonanni spetsyfichnykh zavdan sylamy bezpeky. Zbirnyk naukovykh prats Natsionalnoi akademii NHU, 1 (25), 40–46.
  11. Dmitrievskii, A. A. (1972). Vneshniaia ballistika. Moscow: Mashinostroenie, 584.
  12. Kukhling, Kh. (1982). Spravochnik po fizike. Kharkiv-Moscow: Mir, 520.
  13. Nastavlenie po strelkovomu delu. 9-mm avtomaticheskii pistolet Stechkina (APS) (1968). Moscow: Voenizdat, 126.
  14. Rukovodstvo po 5,45-mm avtomatu Kalashnikova (AK74, AKC74, AK74N, AKC74N) i 5,45-mm ruchnomu pulemetu Kalashnikova (RPK74, RPKS74, RPK74N, RPKS74N) (1982). Moscow: Voenizdat, 216.
  15. Nastavlenie po strelkovomu delu. 7,62-mm snaiperskaia vintovka Dragunova (SVD) (1971). Moscow: Voenizdat, 175.
  16. Bilenko, O. I. (2013). Formuvannia vymoh do rozkydu dulnykh shvydkostei metalnykh elementiv kinetychnoi zbroi. Zbirnyk naukovykh prats Akademii VV MVS Ukrainy, 1 (21), 16–20.
  17. Bilenko, O. I. (2014). Rehlamentatsiia rozkydu znachen balistychnoho koefitsiientu porazhaiuchykh elementiv kinetychnoi zbroi dlia syl bezpeky. Zbirnyk naukovykh prats Natsionalnoi akademii NHU, 2 (24), 9–14.
  18. Kolomyitsev, A. V., Sobokar, Y. S., Lavryk, V. A. et. al. (2008). Perspektyvi razvytyia porazhaiuchykh elementov travmatycheskoho deistvyia y medyko-krymynalystycheskaia otsenka nanesennikh ymy telesnikh povrezhdenyi. Teoriia i praktyka sudovoi ekspertyzy i kryminalistyky, 8, 225–234.
  19. Schipin, A. I., Kovshov, N. V., Shestopalova, E. V., Diakova, E. Iu. (2006). Ognevaia podgotovka v organakh vnutrennikh del. Moscow: SCHit-M, 238.
  20. Nastavlenie po strelkovomu delu. 9-mm pistolet Makarova (PM) (1968). Moscow: Voenizdat, 103.
  21. Gubin, S. G. (2012). Effektivnost strelby iz vooruzheniia boevykh mashin i strelkovogo oruzhiia. Novosibirsk: SGGA, 158.
  22. Nastavleniia po strelkovomu delu. Osnovy strelby iz strelkovogo oruzhiia (1987). Moscow: Voenizdat, 540.
  23. Bylenko, A. Y., Afanasev, V. V. (2007). Vplyv parametriv zariadzhannia na pochatkovu shvydkist kuli. Vestnyk natsyonalnoho tekhnycheskoho unyversyteta „KhPY”, 11, 33–37.
  24. Bilenko, O. I., Pashchenko, V. V. (2010). Pidvyshchennia stabilnosti dulnoi shvydkosti porazhaiuchykh elementiv kinetychnoi zbroi nesmertelnoi dii. Zbirnyk naukovykh prats Akademii vnutrishnikh viisk MVS Ukrainy, 2, 5–10.

Published

2020-06-30

How to Cite

Bilenko, A., Kyrychenko, A., & Kaidalov, R. (2020). Research of influence ballistic characteristics of weapons on the shooting efficiency taking into account the safety of the small arm use. Technology Audit and Production Reserves, 3(1(53), 4–10. https://doi.org/10.15587/2706-5448.2020.205125

Issue

Section

Mechanics: Original Research